References
- Abeles, F.B., Morgan, P.W. and Saltveit, M.E. 1992. Ethylene in Plant Biology Second Edition. Academic Press, San Diego.
- Clifford, P.E., Reid, D.M. and Pharis, R.P. 1983. Endogenous ethylene does not initiate but may modify geobending. – A role for ethylene in autotropism. Plant Cell Environ. 6 :433–436.
- Dunlap, J.R. 1988. Regulation of ACC-dependent ethylene pro-duction by excised leaves from normal and albino Zea mays L-seedlings. J. Exp. Bot. 39 : 1079–1089.
- Emery, R.J.N., Reid, D.M. and Chinnappa, C.C. 1994. Phenotypic plasticity of stem elongation in two ecotypes of Stellarla longipes : the role of ethylene and response to wind. Plant Cell Environ. 17:691–700.
- Emery, R.J.N., Kathiresan, A., Reid, D.M. and Chinnappa, C.C. 1997. Ecotypic differences in rhythmicity of ethylene production in Stellaria longipes : the possible roles of ACC, MACC, and ACC oxidase. Can. J. Bot. 75 : 1027–1033.
- Finlayson, S.A., Lee, I-J. and Morgan, P.W. 1998. Phytochrome B and the regulation of circadian ethylene production in sorghum. Plant Physiol. 116: 17–25.
- Inada, K., Sasaki, H. and Katsura, N. 1981. Growth reaction of crop plants under BOC-lamp illumination. Proc. Crop Sci. Soc. Jpn 50 (Extra issue 1) : 181–182.
- Ishizawa, K. and Esashi, Y. 1988. Action mechanism of ethylene in the control of sugar translocation in relation to rice coleoptile growth. I. Sucrose metabolism. Plant Cell Physiol. 29: 131–141.
- Kao, C.H. and Yang, S.F. 1982. Light inhibition of the conversion of 1-aminocyclopropane-l-carboxylic acid to ethylene in leaves is mediated through carbon dioxide. Planta 155 : 261–266.
- Kao, C.H. and Yang, S.F. 1983. Role of ethylene in the senescence of detached rice leaves. Plant Physiol. 73 : 881–885.
- Ku, H.S., Suge, H., Rappaport, L. and Pratt, H.K. 1970. Stimulation of rice coleoptile growth by ethylene. Planta 90 : 333–339.
- Labraña, X., Vendrell, M. and Araus, J.L. 1991. Ethylene produc-tion in wheat flag leaves and ears during grain filling. Plant Physiol. Biochem. 29 : 349–354.
- Macháčková, I., Chauvaux, N., Dewitte, W. and Van Onckelen, H. 1997. Diurnal fluctuations in ethylene formation in Chenopodium rubrum. Plant physiol. 113 : 981–985.
- Meir, S., Philosoph-Hadas, S., Epstein, E. and Aharoni, N. 1985. Carbohydrates stimulate ethylene production in tobacco leaf discs. I. Interaction with auxin and the relation to auxin metabolism. Plant Physiol. 78: 131–138.
- Meir, S., Riov, J., Philosoph-Hadas, S. and Aharoni, N. 1989. Carbohydrates stimulate ethylene production in tobacco leaf discs. III. Stimulation of enzymic hydrolysis of indole-3-acetyl -L-alanine. Plant Physiol. 90: 1246–1248.
- Michiyama, H. and Saka, H. 1988. Endogenous ethylene levels in leaf sheath and panicle of rice plant. Jpn. J. Crop Sci. 57 : 366 -370.
- Nishizawa, T. and Suge, H. 1995. The regulation of maize mesocotyl growth by ethylene and carbon dioxide. Jpn. J. Crop Sci. 64 : 794–800.
- Okumura, M. and Saka, H. 1989. Organ specific and time-course changes of carbohydrate content in rice plant. Jpn. J. Crop Sci. 58 (Extra issue 2) : 161–162.
- Ota, Y. and Nakayama, M. 1970. Physiological actions of ethylene in crop plants. 1. The effect of ethrel and ethylene on the growth and development in rice plants. Proc. Crop Sci. Soc. Jpn. 39:376–382.
- Parvez, M.M., Wakabayashi, K., Hoson, T. and Kamisaka, S. 1998. White light-induced sugar distribution controls growth and osmotic properties in the coleoptile and the first leaf in Zea mays seedlings. Physiol. Plant. 102 : 1–8.
- Philosoph-Hadas, S., Meir, S. and Aharoni, N. 1985. Carbohydrates stimulate ethylene production in tobacco leaf discs. II. Sites of stimulation in the ethylene biosynthesis pathway. Plant Physiol. 78: 139–143.
- Preger, R. and Gepstein, S. 1984. Carbon dioxide-independent and -dependent components of light inhibition of the conversion of 1-aminocyclopropane-l-carboxylic acid to ethylene in oat leaves. Physiol. Plant. 60: 187–191.
- Raskin, I. and Kende, H. 1984. Effect of submergence on translocation, starch content and amylolytic activity in deep-water rice. Planta 162 : 556–559.
- Saftner, R.A. 1992. Effects of turgor potential on 1-aminocyclo-propane-1-carboxylic acid uptake into the vacuolar compartment and ethylene production in tomato pericarp slices. Physiol. Plant. 85: 157–166.
- Saka, H., Kogen, A., Okumura, M. and Watanabe, S. 1992. Fluctuation of ethylene production in excised panicles and flag leaf blades during grain ripening in rice (Oryza sativa L.) Jpn. J. Crop Sci. 61:285–291.
- Seneweera, S.P., Basra, A.S., Barlow, E.W. and Conroy, J.P. 1995. Diurnal regulation of leaf blade elongation in rice by C02. Is it related to sucrose-phosphate synthase activity? Plant Physiol. 108: 1471–1477.
- Smith, M.A., Jacobsen, J.V. and Kende, H. 1987. Amylase activity and growth in internodes of deepwater rice. Planta 172 : 114–120.
- Suge, H. and Nishizawa, T. 1995. Opposite effects of ethylene on the growth of sorghum mesocotyl under red light and in darkness. Jpn. J. Crop Sci. 64 : 139–143.
- Virgona, J.M. and Barlow, E.W.R. 1991. Drought stress induces changes in the non-structural carbohydrate composition of wheat stems. Aust. J. Plant Physiol. 18 : 239–247.
- Yang, S.F. and Hoffman, N.E. 1984. Ethylene biosynthesis and its regulation in higher plants. Ann. Rev. Plant Physiol. 35 : 155 –189.